SU1502225A1 - Method of drilling small-diameter holes - Google Patents

Abstract

The invention relates to metal cutting, and more specifically to methods for machining small diameter holes by drilling. The purpose of the invention is to improve processing performance by eliminating tool breakage and imposing independent vibrations on the part and tool. The tool is reported with an electrodynamic feed force along the axis and alternating oscillations. When the torque is exceeded, a force is applied to the tool, which is proportional to the change in torque in the direction opposite to the feed movement, and the oscillatory movements change from alternating to pulsating in the same direction. The workpiece is signaled by alternating oscillations in the machining direction, and when the torque is exceeded, an electrodynamic force is applied to the component in the direction of its withdrawal from the machining zone and the alternating oscillations are changed to pulsating ones. 1 hp ff, 1 ill.

Description

The invention relates to metal cutting, in particular to methods for machining small diameter holes by drilling.

The purpose of the invention is to improve processing performance by eliminating tool breakage and imposing independent vibrations on the part and tool.

The drawing shows a device for carrying out a method for drilling holes of small diameter.

Item 1 is mounted on article 2 fixed in turn on the bark 3 of the linear electric motor 4. Tool 5 is fixed in spindle 6, which is simultaneously the rotor or core of the linear electric motor 7. Spindle 6 is fitted with a torque sensor 8 connected with a control unit 9 and a power source 10 for linear motors.

The sensor 8 is connected to the control unit II of the generator 12 pulses of linear motors. Linear motors 4 and 7 also have power sources 13 and 14, respectively, and the tool receives rotation from a separate electric motor 15.

The method is carried out as follows.

After installation, the parts 1 on the table 2 include a power source 13, which in the linear motor 4 generates an electrodynamic force Fj, which supplies the part to the cutting zone against the stop. Then, the motor 15 is turned on the tool 5 and the power source 14, which generates an electrodynamic force FI, feeds the tool 5 to the part 1. The tool 5 and the part 1 communicate alternating oscillations along the axis by means of a pulse generator 12 with forces F, and F ,.

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When the torque is exceeded, a signal is removed from the sensor 8, which is fed to the blocks 9 and I1 of the control. The signal applied to the control unit 9 causes the power supply from the source 10 to the linear motors 4 and 7. This creates electrodynamic forces Fj and F in directions opposite to the forces F ,. and fj. By sending a signal to the control unit 11, the vibrations of the part I and the tool 5 change from alternating to pulsating, and those parts of the periods are used when the force F is opposite to the force FJ and the force FS is opposite to the force F ..

Thus, F, 4-F3 FI, F + F fs.

Sensor 8 receives a torque reduction signal, so the forces F and L- are eliminated, and the forces Fi and F take their initial value. Thus, torque stabilization occurs.

Example. A hole is drilled in a part made of chromel material with a diameter of 1.3 mm and a 16-mm tube. A quick-drill drill bit of steel P 6M5 is used.

The drilling is carried out with a feedrate of S, 03 mm / rev and a cutting speed of V 5.22 m; mip

Torque limit for drill bit M 0.12 Nm. The tool is fed to a part with an e. 1eurodynamic force F, 180 I. supported by electrodynamic () 11 force Fs 219 I.

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The tool is communicated with alternating oscillations with a frequency of 95 Hz by an alternating electrodynamic force F, 100 N, parts - 70 Fu with a force of Fe 100 N. The output of the tool when the maximum torque is reached is produced by force Fj 270 N, and parts - F 350 N.

Claims (2)

1. A method of drilling small-diameter holes, in which the tool is given an electrodynamic feed force along the axis and alternating oscillations, and when the torque value exceeds a predetermined value, a force proportional to the torque change in the direction opposite to the feed motion is applied to the tool. , and oscillatory movements change from alternating to pulsating in the same direction, characterized in that, in order to increase processing performance, when exceeding the value to An electrodynamic force is applied to the part in the direction of its withdrawal from the treatment area to the torque of a given value. 2. A method according to claim 1, wherein the parts simultaneously impart alternating vibrations, and when the torque exceeds a predetermined value, the oscillatory movements are changed before the parts pulsing in the direction of the output from the treatment zone. -gp, ////////// one. ////// g s . Fr